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耐低温乳化炸药的研究进展()

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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 46
期数:: 2017年03

页码:: 22-29

栏目:: 爆炸材料

出版日期:: 2017-05-05

文章信息/Info

Title:: Research Progress of Low Temperature-resistant Emulsion Explosives

文章编号:: 5124

作者:: 周立; 李清; 杜宜蓥; 齐秀芳; 西南科技大学国防科技学院（四川绵阳，621010）

Author(s):: ZHOU Li; LI Qing; DU Yiying; QI Xiufang; School of National Defence Science & Technology,Southwest University of Science and Technology(Sichuan Mianyang, 621010)

关键词:: 乳化炸药; 耐低温; 乳化剂

Keywords:: emulsion explosives; low temperature stability; emulsifier

分类号:: TD235.2+1

DOI:: 10.3969/j.issn.1001-8352.2017.03.005

文献标志码:: A

摘要:: 传统乳化炸药在低温下由于乳胶基质中氧化物溶解度降低、水相凝固、有机相变硬等原因，存在破乳析晶、结冻等现象，致使其爆炸性能降低,不能完全爆轰，甚至拒爆,影响高纬度地区低温条件下的工程爆破作业效果。综合近年来国内外对耐低温乳化炸药的研究，对乳化剂类型、油相材料、氧化剂水溶液的析晶点、敏化方式等影响乳化炸药耐低温性能的主要因素分别进行了概述及分析，综述了耐低温乳化炸药的研究进展。

Abstract:: Freezing and crystallization of traditional emulsion explosives can be observed due to the decreased solubility of oxidant in emulsion matrix, water coagulation and organic phase hardenings at low temperature. Those phenomena mentioned above may cause decreased explosive performances, incomplete detonation or even failure, which are in appropriate to the engineering blasting at high latitude areas with low temperature. Comprehensive studies were carried out on the low temperature-resistance emulsion explosives in recent years. The main raw material factors on the storage stability of emulsion explosives at low temperature, such as the type of emulsifier, oil phase materials, crystallization of oxidants solution, sensitization method, were analyzed. The research progress of low temperature-resistant emulsion explosives was also summarized.

参考文献/References:

［1］汪旭光. 乳化炸药［M］.2版. 北京：冶金工业出版社, 2008.
WANG X G. Emulsion explosives ［M］. 2nd ed. Beijing: Metallurgical Industry Press, 2008.
［2］杨年华, 张志毅, 傅洪贤,等. 青藏铁路冻土爆破开挖技术［J］. 中国铁道科学, 2005, 26(3): 11-15.
YANG N H, ZHANG Z Y, FU H X, et al. Blasting technique of exploiting frozen earth in Qinghai-Tibet Railway project［J］. China Railway Science, 2005, 26(3): 11-15.
［3］高嵩. 多年冻土爆破施工技术应用研究［D］. 成都：西南交通大学, 2006.
GAO S. Application research on construction technique in permafrost blasting［D］. Chengdu:Southwest Jiaotong University, 2006.
［4］韩小平, 张泰华. 含能材料在低温条件下冲击压缩力学性能的实验研究［J］. 爆炸与冲击, 1995,15(4): 343-349.
HAN X P, ZHANG T H. Experimental study of impact compressive properties of energetic materials［J］. Explosion and Shock Waves, 1995,15(4): 343-349.
［5］顾毅成, 冯叔瑜. 高原冻土地区路堑爆破开挖施工的基本原则［J］. 中国铁道科学, 2001, 22(6): 95-99.
GU Y C, FENG S Y. Basic principles of railwaytrench excavation by blasting in plateau frost soil zone［J］. China Railway Science, 2001, 22(6): 95-99.
［6］崔安娜, 任晓民，康廷璋, 等. KDW型抗严寒乳化炸药的研制与生产应用［J］. 有色金属（矿山部分），1996(4): 37-42,14.
CUI A N, REN X M, KANG T Z, et al. Development, production and application of KDW type anti freezing emulsion explosives［J］. Nonferrous Metals(Mining Section), 1996(4): 37-42,14.
［7］宋锦泉，汪旭光. 乳化炸药的稳定性探讨［J］. 火炸药学报，2002,25(1): 36-40.
SONG J Q, WANG X G. Dicussion on stability of emulsion explosives［J］. Chinese Journal of Explosives & Propellants, 2002,25(1): 36-40.
［8］吕春绪. 乳化剂理论及其选择研究［J］. 爆破器材, 1995, 24(1): 1-6.
Lǔ C X. A study of the theory and selection of emulsifying agent［J］. Explosive Materials, 1995, 24(1): 1-6.
［9］MASALOVA I, FOUDAZI R, MALKIN A Y. The rheo logy of highly concentrated emulsions stabilized with different surfactants［J］. Colloids & Surfaces A:Physicochemical & Engineering Aspects, 2011, 375(1):76-86.
［10］TSHILUMBU N N, FERG E E, MASALOVA I. Instability of highly concentrated emulsions with oversaturated dispersed phase. Role of a surfactant［J］. Colloid Journal, 2010, 72(4):569-573.
［11］刁先鹏，胡坤伦，吴红波.乳化剂含量对乳化炸药爆速的影响［J］.淮南职业技术学院学报，2011，11（4）：24-26.
DIAO X P,HU K L,WU H B.Influences of emulsifier content on the detonation velocity of emulsion explosives［J］.Journal of Huainan Vocational & Technical College,2011，11（4）：24-26.
［12］ZHANG K M, NI O Q. Effect of PIBSA-based surfactants on the interfacial interaction, rheology, and stability of highly concentrated water in oil emulsion［J］. Journal of Dispersion Science and Technology, 2015, 36(4): 556-562.
［13］叶志文, 吕春绪, 刘大斌. 新型高能乳化炸药的制备及性能［J］. 火炸药学报, 2011, 34(6): 41-44.
YE Z W, Lǔ C X, LIU D B. Preparation and properties of new high strength emulsion explosive［J］. Chinese Journal of Explosives & Propellants, 2011, 34(6): 41-44.
［14］赵华平, 董云, 贾紫永,等. 新型乳化炸药用高分子乳化剂及其制备方法: CN10534846A［P］. 2016-02-24.
［15］申夏夏, 吴红波, 黄文尧,等. Span-80和T-152对乳化炸药低温稳定性的影响［J］. 工程爆破, 2015, 21(4): 20-23.
SHEN X X, WU H B, HUANG W Y, et al. The effects of Span-80 and T-152 on the stability of emulsion explosive at low temperatures［J］. Engineering Blasting, 2015, 21(4): 20-23.
［16］谢丽. 聚异丁烯丁二酸醇胺乳化剂的合成、性能及应用研究［D］. 南京：南京理工大学, 2012.
XIE L. Study on the synthesis, performance and application of polyisobutylene succinic acid alkylol amine emulsifier［D］. Nanjing: Nanjing University of Science & Technology, 2012.
［17］程刘锁. 聚异丁烯丁二酸醇胺绿色合成及应用研究［D］. 南京：南京理工大学, 2014.
CHENG L S. Study on green synthesis and application of polyisobutylene succinic acid alkylol amine emulsifier［D］. Nanjing: Nanjing University of Science & Technology, 2014.
［18］颜小东. 聚异丁烯丁二酸山梨醇酯的合成及应用研究［D］. 南京：南京理工大学, 2015.
YAN X D. Study on the synthesis and application of polyisobutylene succinic sorbitol ester［D］. Nanjing: Nanjing University of Science & Technology, 2015.
［19］张志银, 全辉, 姚春雷,等. 一种耐低温乳化炸药:CN102464518A［P］. 2012-05-23.
［20］王鼎聪, 王德军, 唐林, 等. 一种用于乳化炸药的乳化剂及其制备方法:CN1158833［P］. 1997-09-10.
［21］张长奎, 全名巍, 陈巍,等. KYS1乳化剂的研制［J］. 现代矿业, 2012, 28(2): 128-129.
［22］殷雅婷, 刘勇, 葛茜云. 复合乳化剂对乳化炸药稳定性的影响研究［J］. 广州化工, 2014(13): 32-34.
YIN Y T, LIU Y, GE Q Y. Effect of emulsifier on the stability of emulsion explosives［J］. Guangzhou Chemical Industry, 2014(13): 32-34.
［23］单艳玲. 复合油相材料对乳化炸药稳定性的影响［J］. 云南化工, 2015(3): 21-23.
SHAN Y L. Influence of composite oil phase material on the stability of emulsion explosives［J］. Yunnan Chemical Technology, 2015(3): 21-23.
［24］SANATKARAN N, MASALOVA I, MALKIN A Y. Effect of surfactant on interfacial film and stability of highly concentrated emulsions stabilized by various binary surfactant mixtures［J］. Colloids and Surfaces A：Physicochemical Engineering Aspects, 2014, 461: 85-91.
［25］黄文尧，颜事龙. 炸药化学与制造［M］. 北京：冶金工业出版社, 2009.
HUANG W Y, YAN S L. Explosion chemistry and production［M］. Beijing: Metallurgical Industry Press, 2009.
［26］缪志军, 吴红波, 申夏夏,等. 不同油相乳胶基质硝酸铵析晶量的实验研究［J］. 淮南职业技术学院学报, 2015,15(6):12-14.
［27］缪志军, 吴红波, 颜事龙,等. 粘度对乳胶基质稳定性影响的实验研究［J］. 安徽理工大学学报(自然科学版), 2015, 35(4): 28-30.
LIAO Z J, WU H B, YAN S L, et al. Experimental study on the effect of viscosity on emulsion matrix stabi lity［J］. Journal of Anhui University of Science and Technology (Natural Science), 2015, 35(4): 28-30.
［28］刘玲秀, 徐奔. 试析复合油相材料对乳化炸药性能的影响［J］. 化工设计通讯, 2016,42(1): 51,55.
LIU L X, XU B. Analysis of the impact of the oil phase composite material properties of emulsion explosives［J］. Chemical Engineering Design Communications, 2016,42(1): 51,55. ［29］褚万伟，李志武，张茂煜.复合油相材料的物化性质对乳化炸药性能的影响［J］. 爆破器材，2003,32(2):9-12.
CHU W W,LI Z W, ZHANG M Y.The influence of physical chemistry characters of complex oil phase material on the performances of emulsion explosives［J］. Explosive Materials，2003,32(2):9-12.
［30］杨杰, 祈茂富, 朱全环. 浅谈提高乳化炸药的抗冻性［J］. 煤矿爆破, 2011(3): 12-15.
YANG J, QI M F, ZHU Q H. Discussion on improving the freezing resistance of emulsion explosives［J］. Coal Mine Blasting, 2011(3): 12-15.
［31］侯传议, 申夏夏, 王道阳,等. 抗冻乳化炸药专用复合蜡的实验研究［J］. 煤矿爆破, 2013(3): 24-27. 
HOU C Y, SHEN X X, WANG D Y, et al. Experimental study on special compound wax for antifreezing emulsion explosive［J］. Coal Mine Blasting, 2013(3): 24-27.
［32］闫泉刚, 高春梅, 丁小峰,等. 抗冻乳化炸药的研制［C］// 中国民用爆破器材学会年会.2004.
YAN Q G, GAO C M, DING X F, et al. Development of freezeproof emulsion explosive［C］// Annual Conference of China Civil Explosive Materials Association.2004.
［33］王进.乳胶体系的稳定性及破乳方法研究［D］.南京：南京理工大学，2008.
［34］梁复兴,张玉宾.井下爆破作业后有毒气体浓度超标的分析及对策［J］. 煤矿爆破，2012(4):20-25.
LIANG F X,ZHANG Y B.Analysis on problem of toxic gas concentration exceeding the standard after underground blasting and the countermeasure［J］. Coal Mine Blasting，2012(4):20-25.
［35］徐尊, 吴红波, 缪志军,等. 析晶点对乳化炸药稳定性的影响研究［J］. 广东化工, 2015, 42(8): 66,60.
XU Z, WU H B, LIAO Z J, et al. Effect of crystallization point on the stability of emulsion explosives［J］. Guangdong Chemical Engineering, 2015, 42(8): 66,60.
［36］黄文忠, 陈江涛. 水相析晶点对乳化炸药稳定性的影响［J］. 江西煤炭科技, 2010(3): 81-82.
HUANG W Z, CHEN J T. Influence of crystallization point of water phase on stability of emulsion explosives［J］. Jiangxi Coal Science & Technology, 2010(3): 81-82.
［37］李冰.乳化炸药的稳定性及其表征方法的研究［D］.淮南：安徽理工大学，2008.
［38］罗伟.铁离子对乳化炸药热安全性的影响研究［D］.淮南：安徽理工大学，2009.
［39］刘杰, 徐志祥, 孔煜. 乳化炸药稳定性及其破乳机理研究［J］. 爆破器材, 2015, 44(6): 38-42.
LIU J, XU Z X, KONG Y. Storage stability and demulsion mechanism of emulsion explosives［J］. Explosive Materials, 2015, 44(6): 38-42.
［40］吴春来. 尿素对乳化炸药水相的负面影响［J］. 采矿技术, 2016, 16(2): 94-96.
WU C L. The negative effect of urea on the aqueous phase of emulsion explosives［J］. Mining Technology, 2016, 16(2): 94-96.
［41］LIU X Y. Interfacial effect of molecules on nucleation kinetics ［J］. Journal of Physical Chemistry B, 2001, 105(47):11550-11558.
［42］程秀莲,王树涛, 霸书红,等. 添加剂对乳化炸药水相析晶点影响的研究［J］. 粘接, 2014(6): 58-61.
CHENG X L, WANG S T, BA S H, et al. Influences of additives on crystallizing point of waterphase in emulsion explosive［J］. Adhesion, 2014(6): 58-61.
［43］陆丽园, 钱月亮, 张东杰,等. 表面活性剂降低水相析晶点的研究［J］. 煤矿爆破, 2011(4): 4-7.
LU L Y, QIAN Y L, ZHANG D J, et al. Study on reducing the crystallizing point of waterphase in emulsion explosive using surfactant［J］. Coal Mine Blasting, 2011(4): 4-7.
［44］王树涛. 添加剂对乳化炸药稳定性的影响［D］. 沈阳：沈阳理工大学, 2015.
WANG S T. The effect of additives on the stability of emulsion explosive［D］. Shenyang: Shenyang Ligong University, 2015.
［45］何楠.一种新型乳化炸药物理敏化材料的研究［J］. 现代矿业,2011(8):26-28.
HE N. Research on physical sensitization materials of a new type of emulsion explosive［J］. Modern Mining,2011(8):26-28.
［46］吴红波, 申夏夏, 王道阳,等. 敏化方式对乳化炸药耐低温性能的影响［J］.火炸药学报, 2014, 37(6): 58-61.
WU H B, SHEN X X, WANG D Y, et al. Effects of sensitizing methods on low temperature resistance of emulsion explosive［J］. Chinese Journal of Explosives & Propellants, 2014, 37(6): 58-61.
［47］王晓苏. 乳化炸药中敏化气泡定性的影响因素及提高稳定性的途径［J］. 世界采矿快报, 1996(16): 13-14.
［48］王天明. 一种新型敏化方式在乳化炸药生产中的应用［J］. 军民两用技术与产品, 2015(8): 117.
［49］王永，张结传.乳化炸药新型高温物理敏化技术初步研究［J］. 现代矿业，2011（8）:142-143.
［50］叶志文. 光面爆破用低爆速膨化硝铵炸药的研制［J］. 矿冶工程, 2007, 27(5): 5-8.
YE Z W. Development of expanded ammonium nitrate explosives with low explosion velocity for smooth blasting［J］. Mining and Metallurgical Engineering, 2007, 27(5): 5-8.
［51］叶志文, 苏明阳. NL有机微球对乳化炸药的敏化研究［J］. 矿冶工程, 2012, 32(2): 23-25.
YE Z W, SU M Y. Study on sensitization of NL organic microspheres to emulsion explosive［J］. Mining and Metallurgical Engineering, 2012, 32(2): 23-25.

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　XIONG Jiaquan,LIN Huadai.Discussion on Factors Affecting the Performance of Emulsion Explosive[J].EXPLOSIVE MATERIALS,2010,39(03):13.
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备注/Memo

备注/Memo:: 收稿日期：2016-10-19
基金项目：四川省大学生创新创业训练计划资助项目（201610619038）；国家级大学生创新创业训练计划资助项目（201610619009）
作者简介：周立（1994－），男，研究方向为特种能源技术与工程。E-mail: 1754313053@qq.com
通信作者：齐秀芳（1976－），女，讲师，研究方向为含能材料。E-mail: qf412@sina.com

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更新日期/Last Update: 2017-05-05